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Corrective prompting system for appropriate chest compressions

Active Publication Date: 2013-10-24
ZOLL MEDICAL CORPORATION
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

The invention is a system that helps people give cardiopulmonary resuscitation (CPR) to people who have had a heart attack. It uses sensors to monitor the performance of the CPR and quickly tells the person what to do to make it more effective. This makes it easier for people to give CPR and increase the chances of saving lives.

Problems solved by technology

Further, such embodiments recognize critical errors in compression that need immediate correction from mere minor errors and differentiation.

Method used

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  • Corrective prompting system for appropriate chest compressions
  • Corrective prompting system for appropriate chest compressions
  • Corrective prompting system for appropriate chest compressions

Examples

Experimental program
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first embodiment

[0075]Various embodiments are made possible by the disclosed system. In a first embodiment, a Fixed Time, Alternating Depth / Rate Correction System is provided. In this model time between prompts is fixed and the first prompt is towards depth correction and is followed by rate corrective prompt and this sequence is repeated until the end of a cycle of CPR compressions. At times T, 3T, . . . , check for corrective prompt alarm conditions for depth with limits L,DH>; if outside the limits, issue a corrective prompt alarm or flag. Else, perform no action. At times 2T, 4T, . . . , check for corrective prompt alarm conditions for rate with limits L,RH>; if outside the limits, issue a corrective prompt alarm or flag. Else, perform no action. Maximum frequency of prompting in this model is limited by time between the prompts. Average frequency of prompting is decided by the need for depth and rate prompts required in a CPR session.

[0076]In a second embodiment, a Fixed Time, Depth Only Corre...

fourth embodiment

[0078]In a fourth embodiment, a Fixed Time, Depth followed by Rate in Priority Correction System is provided. In this embodiment, the time between corrective prompts is kept constant. If no depth related corrective prompt is needed, then only a rate related prompt is given out, if needed.

fifth embodiment

[0079]In a fifth embodiment, a Variable Time, Depth followed by Rate in Priority Correction System is provided. In this embodiment, the time between adjacent corrective prompts is variable, thereby enabling a minimum effective latency. Minimum time between corrective prompts is fixed (TMin) and a corrective prompt can happen at any time point (TMin+nTD). Usually, TMin>>TD and n=0, 1, 2, . . . . Always the prompt system looks for any need for depth-related corrective prompt and if there is no correction needed for depth, then it looks for rate-related corrective prompt.

[0080]In a sixth embodiment, a Variable Time, Variable Adaptive Threshold Based System is provided. This embodiment is similar to the fifth embodiment, however, a major difference is in the adaptive thresholding based on patient profile. Based on effective depth computations in the first few seconds, prompting system will adjust for bulkier patients. Similarly, for each responder, the system can adapt based on initial ...

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Abstract

An automated external defibrillator (AED) and methods for a corrective CPR prompting system. The AED includes a sensor that obtains compression measurement data of CPR chest compressions and a control system including a microprocessor programmed to run a non-parametric, Information-Theoretic analysis of the compression measurement data. The analysis includes ranking provided compression measurement data, determining a prompt time TN for review, locating the compression measurement data at TN in an initial expected histogram of depth and rate aspects of the compression data measurements with upper and lower limits, that divides the intervals of the histogram into a plurality of sections, weighting the compression measurement data based on a plurality of factors, deriving information content of the compression measurement data by mapping a probability density function into an information content function, and determining if a particular corrective prompt is necessary. The AED also includes a prompting device that provides corrective CPR.

Description

RELATED APPLICATION[0001]The present application claims the benefit of U.S. Provisional Application No. 61 / 636,419 filed Apr. 20, 2012, which is incorporated herein in its entirety by reference.FIELD OF THE INVENTION[0002]The present invention relates to improved methods and apparatus to assist users in administering cardio-pulmonary resuscitation (CPR) on cardiac arrest victims. Specifically, this invention relates to improved prompting systems for AEDs (Automated External Defibrillators), medical resuscitation devices, and associated methods that utilize sensor data regarding CPR performance to provide timely, accurate, and clear corrective instructions to individuals engaged in cardiac resuscitation.BACKGROUND OF THE INVENTION[0003]AEDs are well-known and widely used today to aid in both defibrillation and CPR. AEDs were developed decades ago to provide emergency therapy options during rescue situations for patients under cardiac arrest conditions. AEDs have become prevalent in p...

Claims

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Application Information

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IPC IPC(8): A61N1/39
CPCA61N1/3993A61H31/005A61H31/007A61H2201/0184A61H2201/5007A61H2201/5015A61H2201/5043A61H2201/5048A61H2201/5061A61H2201/5071A61H2201/5084A61H2201/5092A61H2201/5097A61H2230/04
Inventor THIAGARAJAN, SRIKANTHTAYLOR, JAMES WALTER
Owner ZOLL MEDICAL CORPORATION
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